Department of Chemistry, Princeton University, Princeton, NJ 08544, USA.
Department of Process Research and Development, Merck Research Laboratories, Rahway, NJ 07065, USA.
Science. 2018 May 25;360(6391):888-893. doi: 10.1126/science.aar6117.
Identifying catalyst activation modes that exploit one-electron chemistry and overcome associated deactivation pathways will be transformative for developing first-row transition metal catalysts with performance equal or, ideally, superior to precious metals. Here we describe a zinc-activation method compatible with high-throughput reaction discovery that identified scores of cobalt-phosphine combinations for the asymmetric hydrogenation of functionalized alkenes. An optimized catalyst prepared from (,)-Ph-BPE {Ph-BPE, 1,2-bis[(2,5)-2,5-diphenylphospholano]ethane} and cobalt chloride [CoCl·6HO] exhibited high activity and enantioselectivity in protic media and enabled the asymmetric synthesis of the epilepsy medication levetiracetam at 200-gram scale with 0.08 mole % catalyst loading. Stoichiometric studies established that the cobalt (II) catalyst precursor (,)-Ph-BPECoCl underwent ligand displacement by methanol, and zinc promoted facile one-electron reduction to cobalt (I), which more stably bound the phosphine.
开发性能与贵金属相当甚至更优的第一过渡金属催化剂,关键在于识别出利用单电子化学并克服相关失活途径的催化剂活化模式。在此,我们描述了一种与高通量反应发现兼容的锌活化方法,该方法鉴定了许多钴-膦组合,可用于功能化烯烃的不对称氢化。由(,)-Ph-BPE{Ph-BPE,1,2-双[(2,5)-2,5-二苯基膦基]乙烷}和氯化钴[CoCl·6HO]制备的优化催化剂在质子介质中表现出高活性和对映选择性,并能够以 0.08 摩尔%的催化剂负载量在 200 克规模下实现抗癫痫药物左乙拉西坦的不对称合成。化学计量研究表明,钴(II)催化剂前体(,)-Ph-BPECoCl 经历了甲醇的配体取代,而锌促进了钴(I)的单电子还原,该还原更稳定地结合了膦。
